DE102019214920A1 - BATTERY PACK FOR ELECTRIC VEHICLE - Google Patents

Abstract

In a battery pack for an electric vehicle, by attaching a lid member to a plurality of fastening portions provided on a bottom wall of a battery case, a cooling medium jacket is formed between an underside of the bottom wall and an upper side of the lid member. The thickness of the battery housing in the fastening section is larger than its thickness around the fastening section. The attachment portion includes a bulge portion that bulges up toward an underside of a battery module. Its underside contains an upwardly recessed depression section and a downwardly projecting projection section. Accordingly, since the bulge portion is located at a position opposite to the depression portion, it is possible to form the cooling medium jacket by stably attaching the lid member to the underside of the bottom wall while avoiding an increase in the vertical dimension of the battery pack.

Description

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The present invention relates to a battery pack for an electric vehicle in which, by attaching a cover member to a plurality of attachment portions provided on a bottom wall of a battery case that houses a battery module having a plurality of battery cells, a cooling medium jacket for cooling the battery module between an underside of the bottom wall of the battery housing and an upper side of the cover element is formed, at least part of the plurality of fastening sections being arranged on an outside of the cooling medium jacket.

DESCRIPTION OF THE RELATED ART

The Japanese Patent No. 5847815 has disclosed a cooling device for a vehicle battery, in which a plate-shaped coolant line (coolant jacket), in the interior of which a plurality of coolant flow paths are formed, is supported against the bottom of the battery, and this coolant line at the bottom of the battery is supported by a clamping element a heat insulating element held between them is attached.

If a plate-shaped cover member is fastened with a bolt to an attachment portion provided on a bottom wall of a battery case from below, and a cooling medium jacket for cooling the battery is formed between an underside of the bottom wall of the battery case and an upper side of the cover member, it is possible to number minimize the components of the coolant jacket, and reduce the vertical dimension of a battery pack.

In this case, in order to prevent the cooling medium from leaking from the cooling medium jacket, when trying to stably attach the lid member to the bottom wall of the battery case, the length of the bolt increases and the fixing portion of the battery case becomes large, and this leads to the problem that the downsizing of the vertical dimension of the battery pack is prevented.

SUMMARY OF THE INVENTION

The present invention has been accomplished in light of the above circumstances, and its object is to form a cooling medium jacket by stably attaching a lid member to an underside of a bottom wall of a battery case while avoiding any increase in the vertical dimension of a battery pack.

To achieve the object, according to a first aspect of the present invention, a battery pack for an electric vehicle is specified, in which, by fastening a cover element to a plurality of fastening sections which are provided on a bottom wall of a battery housing, which accommodates a battery module having a plurality of battery cells , A cooling medium jacket for cooling the battery module is formed between an underside of the bottom wall of the battery housing and an upper side of the cover element, at least part of the plurality of fastening sections being arranged on an outside of the cooling medium jacket, a thickness of the battery housing being made larger in each of the fastening sections as a thickness of the battery case around each of the attachment portions, the attachment portion has a bulge portion that bulges up toward a bottom of the battery module, the bottom de s battery module has an upwardly recessed depression section and a downwardly projecting projection section, and the bulge section is arranged at a position opposite the depression section.

According to the first aspect, with respect to the battery pack for an electric vehicle, by attaching the lid member to the plurality of attachment portions provided on the bottom wall of a battery case that houses the battery module having the plurality of battery cells, the cooling medium jacket for cooling the Battery module is formed between the underside of the bottom wall of the battery housing and the top of the cover element. At least a part of the plurality of fastening sections is arranged on an outer side of the cooling medium jacket, the thickness of the battery housing in each of the fastening sections being greater than the thickness of the battery housing around each of the fastening sections, the fastening section having the bulge section that faces the underside of the Battery module is curved upward, the underside of the battery module has the recessed portion recessed upward and the projection portion projecting downward; since the bulge portion is located at the position opposite to the recess portion, any increase in the vertical dimension of the battery pack due to the bulge portion provided can be prevented while being able to increase the thickness of the fixing portion in a portion corresponding to the bulge portion to To improve stability with which the cover element is attached.

According to a second aspect of the present invention, in addition to the first aspect, a heat transfer member is disposed outside the cooling medium jacket at a position away from the bulge portion, the heat transfer member being sandwiched between an upper surface of the bottom wall of the battery case and a lower surface of the battery module, and a height of one upper end of the heat transfer element is greater than a height of an upper end of the bulge portion.

According to the second aspect, since a heat transfer element is arranged outside the cooling medium jacket at a position away from the bulge portion, the heat transfer element is layered between the top of the bottom wall of the battery housing and the bottom of the battery module, and the height of the upper end of the heat transfer element is greater than that Height of the upper end of the bulge portion, the cooling performance can be improved by allowing the heat transfer element to efficiently allow heat of the battery module to escape to the battery case, and the bulge portion can be prevented from interfering with the bottom surface of the battery module.

According to a third aspect of the present invention, in addition to the first or second aspect, the battery module comprises a plate-shaped element made of metal, which forms the underside of the battery module, the plate-shaped element having a thin section in a section opposite the cooling medium jacket, the thin section Section has a smaller thickness than that of other sections, and at least a part of the bulge section is positioned under the thin section.

According to the third aspect, since the battery module comprises the plate-shaped element made of metal, which forms the underside of the battery module, the plate-shaped element has a thin section in a section opposite the cooling medium jacket, the thin section having a smaller thickness than that of other sections, and at least a part of the bulge portion is positioned under the thin portion, the bulge portion can be accommodated in the thin portion that is the recess portion of the plate member, thereby reducing the height of the battery pack.

According to a fourth aspect of the present invention, in addition to the third aspect, the battery module includes a pair of side plates that attach the plurality of battery cells to each other as a unit, the side plates each having a main body portion that covers side surfaces of the plurality of battery cells and an elongated portion which is formed by bending a lower end of the main body portion and is supported on the underside of the plate-shaped member, and the bulge portion is arranged at a position where it does not interfere with the elongated portion.

According to the fourth aspect, the battery module includes the pair of side plates that attach the plurality of battery cells to each other as a unit, the side plate having the main body portion covering side surfaces of the plurality of battery cells and the elongated portion formed by bending a lower end of the main body portion is formed and is supported on the underside of the plate-shaped element; since the bulge portion is located at a position where it does not interfere with the elongated portion, the elongated portion is prevented from interfering with the bulge portion even if the bending angle of the elongated portion of the side plate opens outward.

According to a fifth aspect of the present invention, in addition to the fourth aspect, the plate-shaped member is formed such that a plate thickness of opposite side portions along the pair of side plates is large and a plate thickness of a middle portion received between the pair of opposite side portions is small, and the extended portion of the side plate is supported on at least a part of the opposite side portions of the plate-shaped member.

According to the fifth aspect, since the plate-shaped member is formed such that the plate thickness of the opposite side portions along the pair of side plates is large, and the plate thickness of the middle portion received between the pair of opposite side portions is small, and the elongated portion of the side plate is at least a part of the opposite side portions of the plate-shaped member is supported, it is possible to stably protect the elongated portion of the side plate by the opposite side portions of the plate-shaped member having a large plate thickness, thereby improving the stability of the battery module.

According to a sixth aspect of the present invention, in addition to any one of the first to fifth aspects, a bolt hole is formed to extend upward from an underside of the fixing portion, and the lid member is fixed to the battery case by a bolt screwed into the bolt hole.

According to the sixth aspect, since the bolt hole is formed to extend upward from the bottom of the fixing portion and the lid member is fixed to the battery case by the bolt screwed into the bolt hole, it is possible to make the lid member on the battery case simple and stable to fix.

According to a seventh aspect of the present invention, in addition to any one of the first to sixth aspects, the battery case is made of die-cast metal, and the fixing portion is integrally formed with the battery case.

According to the seventh aspect, since the battery case is made of die-cast metal and the attachment portion is integrally formed with the battery case, it is easily possible to form the attachment portion with a desired shape without increasing the number of components.

Incidentally, a main body of a case corresponds 31 an embodiment with the battery case of the present invention corresponds to a lower plate 36 the embodiment of the plate-shaped element of the present invention corresponds to a central section 36c the thin section of the present invention, and corresponds to a water jacket 45 the coolant jacket of the present invention.

The above and other objects, features and advantages of the present invention will become apparent from detailed descriptions of the preferred embodiment given below with reference to the accompanying drawings.

Figure list

• 1 10 is a side view of a vehicle body of a plug-in hybrid vehicle.
• 2nd is a view in the direction of arrow 2nd in 1 .
• 3rd is a view in the direction of arrow 3rd in 1 .
• 4th is a sectional view taken along a line 4-4 in 3rd .
• 5 is an enlarged view of part 5 in 4th .
• 6 Fig. 3 is an exploded perspective view of a battery pack.

DESCRIPTION OF THE PREFERRED EMBODIMENT

An embodiment of the present invention will be described below with reference to 1 to 6 explained. In the following description, reference numerals corresponding to components of the embodiment are included for ease of understanding only, but applicant's claims are not limited to the embodiment or specific components of the embodiment.

In the present description, the front and rear direction, the left and right direction (vehicle width direction) and the up and down direction are defined with respect to an occupant sitting in a driver's seat.

As in 1 and 2nd an electric motor is shown on a front part of a vehicle body of a plug-in hybrid vehicle with front-wheel drive 11 to drive a front wheel, an internal combustion engine 12th to drive a generator charging a battery and a power driver unit 13 using an inverter to control the drive of the electric motor 11 is fitted. On the underside of a base plate 14 are a pair of left and right floor frames 15 arranged extending in the front and rear directions, and a floor cross member 16 that the left and right floor frames 15 connects in the vehicle width direction and on the underside of the floor frame 15 is attached. The floor cross member 16 is a battery case 18th which is an outer shell of a battery pack 17th to power the electric motor 11 forms.

As in 6 shown is the battery case 18th formed by a housing main body 31 , which is made of die-cast metal (aluminum) and is open at the top, in the top-bottom direction with a lid 32 , which is made of die-cast metal (aluminum) and is open at the bottom, over its outer peripheral parts by a plurality of bolts 33 connected is. Eight battery modules 34 are on a bottom part of the case main body 31 attached, and an electrical component 35 such as a battery control device, a connector board, or a cell voltage sensor is over the battery modules 34 arranged.

The battery module 34 contains a lower plate 36 , which is formed from a rectangular metal sheet, a plurality of battery cells 37 that are on top of the bottom plate 36 are arranged in a stacked state, a pair of end plates 38 that are on opposite ends in the stacking direction of the plurality of battery cells 37 are stored, as well as in a pair of side plates 39 , which are formed from a metal sheet and against opposite side faces of the plurality of battery cells 37 and the pair of end plates 38 are supported.

The side plate 39 contains a rectangular main body section 39a , an extended section 39b that is perpendicular from the bottom of the main body section 39a is bent and against undersides of the plurality of battery cells 37 and the pair of end plates 38 supports, as well as a pair of flange sections 39c , which are perpendicular from longitudinally opposite end portions of the main body portion 39a are curved and against the outside of the pair of end plates 38 support. By fastening the flange section 39c on the outside of the end plate 38 with a bolt 40 becomes the battery module 34 assembled.

As in 3rd shown are bolt holes 36a in four corners of the lower plate 36 each battery module 34 trained, and by upward insertion of four studs that are on a bottom wall 31a of the main body of the case 31 are attached through the bolt holes 36a , and tighten with nuts 42 , the battery module 34 on a top of the bottom wall 31a of the main body of the case 31 attached.

As in 3rd to 5 shown contains the lower plate 36 of the battery module 34 thick opposite side sections 36b against which the extended section opposes 39b the side plate 39 supports, as well as a thin middle section 36c that between the pair of opposite side sections 36b is recorded, which extend parallel to each other. A bottom of the middle section 36c is relative to undersides of the opposite side sections 36b deepened upwards. The undersides of the opposite side sections 36b the bottom plate 36 therefore form a downward protruding portion. The bottom of the middle section 36c the bottom plate 36 forms a recessed portion recessed upwards.

A lid element 43 , which is formed from a single sheet of metal, is on an underside of the bottom wall 31a of the main body of the case 31 of the battery case 18th through several bolts 44 attached. A water jacket 45 is between a top of the lid member 43 and the bottom of the bottom wall 31a of the main body of the case 31 trained, being through the water jacket 45 Cooling water flows. Eight water coats 45 are designed to accommodate the eight battery modules 34 correspond and are connected in series (see 6 ).

A plurality of attachment sections 31b are on the bottom wall 31a of the main body of the case 31 trained to cover the area around the water jacket 45 wrap around with the bolts 44 for attaching the cover element 43 in the mounting sections 31b are screwed. The fastening section 31b the bottom wall 31a of the main body of the case 31 is thicker than other sections of the bottom wall 31a , and a bulge section 31c bulges from the top of the mounting section 31b to the bottom of the middle section recessed upwards 36c the bottom plate 36 of the battery module 34 up. A bolt hole 31d as an internal thread for screwing in the bolt 44 opens at the bottom of the mounting section 31b .

The one on the outside of the water jacket 45 positioned top of the bottom wall 31a of the main body of the case 31 has a predetermined gap α between itself and an underside of the elongated portion positioned above it 39b the side plate 39 of the battery module 34 . Furthermore, the end of the extended section 39b the side plate 39 positioned further out than the bulge section 31c the bottom wall 31a of the main body of the case 31 so that it’s not the bulge section 31c disturbs.

A sheet, gel or pasty heat transfer element 46 is outside the water jacket 45 arranged, with an upper side of the heat transfer element 46 against the bottom of the lower plate 36 of the battery module 34 supports, and its bottom against the top of the bottom wall 31a of the main body of the case 31 supports. A height H2 the upper end of the heat transfer element 46 is greater than the height H1 the upper end of the bulge section 31c (please refer 5 ).

As in 1 and 2nd shown is the battery housing thus formed 18th the battery pack 17th at the bottom of the floor cross member 16 by two bolts 47 attached, which extend from the bottom up through its central part in a state in which a recess portion 32a that in the lid 32 is formed and extends in the vehicle width direction, from below onto the floor cross member 16 is put on, and on the underside of the floor frame 15 by two bolts 48 is attached, which extend from the bottom up through each of its left and right side parts.

The operation of the embodiment of the present invention with the above arrangement will now be explained.

If through the battery cell 37 of the battery module 34 along with charging or discharging heat is generated, some of the heat becomes direct on the lower plate 36 transferred that with the floor area 37 is in contact, another part of it is on the bottom plate 36 over the side plate 39 that with the side surface of the battery cell 37 is in contact, transferred, and thus becomes the temperature of the lower plate 39 raised. The warmth of the bottom plate 36 is about the heat transfer element 46 that is against the bottom of the bottom plate 36 supports on the bottom wall 31a of the main body of the case 31 transferred, and is also on the cover element 43 transferred that to the bottom wall 31a of the main body of the case 31 is attached; the bottom wall 31a of the main body of the case 31 and the cover element 43 , whose temperatures have been raised, are cooled by cooling water, which is formed by the interior of the water jacket formed between them 45 flows, and this causes the battery module 34 cooled to deteriorate the battery cell 37 to prevent.

Bolts 44 for attaching the cover element 43 on the bottom wall 31a of the main body of the case 31 are arranged so that they cover the area around the water jacket 45 surrounded around, and leakage of the cooling water from the water jacket 45 by the tensile force of the bolts 44 is prevented. So that the bolt 44 Sufficient sealing force is required that the bolt 44 is of sufficient length; because the mounting section 31b in which the bolt hole 31d is formed, in which the bolt 44 is screwed, is formed thicker than the other sections, and the bulge section 31c from the top of the mounting section 31b is arched upwards, it is possible to remove the bolt 44 to use with sufficient length, and thus the required sealing force can be achieved.

If the bulge section 31c from the top of the mounting section 31b is arched upwards, the position of the lower plate 36 of the battery module 34 high to interfere with the bulge section 31c to avoid and there is a problem that the vertical dimension of the battery pack 17th increases by a corresponding proportion. However, according to the present embodiment, the lower plate 36 of the battery module 34 the thick opposite side sections 36b and the thin middle section 36c having that of the opposite side portions 36b forms upward recessed portion, and the bulge portion 31c of the main body of the case 31 into the recessed section of the lower plate 36 is inserted, it is possible to change the position of the lower plate 36 lower and any increase in the vertical dimension of the battery pack 17th to avoid. Because in this arrangement the height H2 the upper end of the heat transfer element 46 is greater than the height H1 the bulge portion of the upper end 31c , prevents the upper end of the bulge portion from becoming 31c with the bottom plate 36 disturbs.

Furthermore, since the lower plate 36 of the battery module 34 is formed such that the plate thickness of the opposite side sections 36b is large and the plate thickness of the middle section 36c is small, and the elongated section 39b the side plate 39 of the battery module 34 on the bottom of the opposite side sections 36b the bottom plate 36 is superimposed, it is possible to extend the extended section 39b the side plate 39 through the opposite side sections 36b the bottom plate 36 which have a large plate thickness to support stably, thereby the rigidity of the battery module 34 to improve.

Because, moreover, the bulge section 31c of the main body of the case 31 is located at a position where it extends with the elongated side portion 39b the side plate 39 of the battery module 34 does not bother, the extended section is prevented 39 with the bulge section 31c bothers, even if the bending angle of the extended section 39b the side plate 39 opens to the outside due to a change in time, etc. (see chain line in 5 ).

Because also the main body of the case 31 of the battery case 18th is made of die-cast metal, and the mounting portion 31b in one piece with the housing main body 31 is formed, it is easily possible to fix the section 31b with a desired shape without increasing the number of components. Because in addition the bolt hole 31d is designed so that it extends from the underside of the fastening section 31b extends upward, and the lid member 43 on the case main body 31 through the in the bolt hole 31d screwed bolt 44 is attached, it is possible to attach the lid member to the main body of the case 31 easy and stable to attach.

An embodiment of the present invention has been explained above, but the present invention can be modified in numerous ways as long as the modifications do not depart from the idea of the present invention.

For example, the cooling medium jacket of the present invention is not on the water jacket 45 the execution is limited, and the cooling medium flowing through it is not limited to cooling water.

Furthermore, the battery case 18th the version from the main body of the housing 31 and the lid 32 trained, but is not limited to this.

Furthermore, all of the plurality of fastening portions are in the embodiment 31b of the main body of the case 31 arranged so that it is the outside of the water jacket 45 surrounded, but some of the mounting sections 31b can also be on the inside of the water jacket 45 to be ordered.

In a battery pack for an electric vehicle, by attaching a lid member to a plurality of fastening portions provided on a bottom wall of a battery case, a cooling medium jacket is formed between an underside of the bottom wall and an upper side of the lid member. The thickness of the battery housing in the fastening section is larger than its thickness around the fastening section. The attachment portion includes a bulge portion that bulges up toward an underside of a battery module. Its underside contains an upwardly recessed depression section and a downwardly projecting projection section. Accordingly, since the bulge portion is located at a position opposite to the depression portion, it is possible to form the cooling medium jacket by stably attaching the lid member to the underside of the bottom wall while avoiding an increase in the vertical dimension of the battery pack.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• JP 5847815 [0002]

Claims (7)

Battery pack for an electric vehicle, in which, by fastening a cover element (43) to a plurality of fastening sections (31b) which are provided on a bottom wall (31a) of a battery housing (31), the battery module has a plurality of battery cells (37) (34), a cooling medium jacket (45) for cooling the battery module (34) is formed between an underside of the bottom wall (31a) of the battery housing (31) and an upper side of the cover element (43), at least part of the plurality of fastening sections ( 31b) is arranged on an outside of the cooling medium jacket (45), wherein a thickness of the battery case (31) in each of the attachment portions (31b) is made larger than a thickness of the battery case (31) around each of the attachment portions (31b), the fastening section (31b) has a curvature section (31c) which is curved upwards towards an underside of the battery module (34), the underside of the battery module (34) has an upwardly recessed recess section and a downwardly projecting projection section, and the bulge section (31c) is arranged at a position opposite the depression section. The battery pack for an electric vehicle Claim 1 , wherein a heat transfer element (46) is arranged outside the cooling medium jacket (45) at a position remote from the bulge section (31c), the heat transfer element (46) between an upper side of the bottom wall (31a) of the battery housing (31) and a lower side of the battery module (34) is layered, and a height (H2) of an upper end of the heat transfer member (46) is larger than a height (H1) of an upper end of the bulge portion (31c). The battery pack for an electric vehicle Claim 1 or Claim 2 , wherein the battery module (34) has a plate-shaped element (36) made of metal, which forms the underside of the battery module (34), the plate-shaped element (36) has a thin section (36c) in a section opposite the cooling medium jacket (45) , wherein the thin section (36c) has a smaller thickness than that of other sections, and at least part of the bulge section (31c) is positioned under the thin section (36c). The battery pack for an electric vehicle Claim 3 wherein the battery module (34) has a pair of side plates (39) which attach the plurality of battery cells (37) to each other as a unit, the side plates (39) each having a main body portion (39a), the side faces of the plurality of battery cells (37 ) and an elongated portion (39b) formed by bending a lower end of the main body portion (39a) and supported on the underside of the plate-shaped member (36), and the bulge portion (31c) is located at one position, in which he does not bother with the extended section (39b). The battery pack for an electric vehicle Claim 4 wherein the plate-shaped member (36) is formed such that a plate thickness of opposite side portions (36b) along the pair of side plates (39) is large, and a plate thickness of a middle portion (36c) received between the pair of opposite side portions (36b) ) is small, and the elongated section (39b) of the side plate (39) is supported on at least part of the opposite side sections (36b) of the plate-shaped element (36). The battery pack for an electric vehicle according to one of Claim 1 to Claim 5 , wherein a bolt hole (31d) is formed so that it extends upward from an underside of the fastening portion (31b), and the cover element (43) on the battery housing (31) by a bolt (44) screwed into the bolt hole (31d) is attached. The battery pack for an electric vehicle according to one of Claim 1 to Claim 6 , wherein the battery housing (31) is made of die-cast metal, and the fastening section (31b) is formed in one piece with the battery housing (31).

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